Atomization device manufacturing method and atomization device

ABSTRACT

The present disclosure provides an atomization device manufacturing method and an atomization device. The method steps are, firstly obtaining a hollow rod, two ends of which are respectively provided with an opening, secondly assembling an atomization component to the opening at one end of the rod, then assembling a battery component in the rod and electrically connecting the battery component with the atomization component, and finally assembling a sensing component to the opening at the other end of the rod and electrically connecting the sensing component with the battery component.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the priority benefit of Chinese PatentApplication Serial Number 202110729340.8, filed on Jun. 29, 2021, thefull disclosure of which is incorporated herein by reference.

BACKGROUND Technical Field

The present disclosure relates to the technical field of atomizationdevices, particularly to an atomization device manufacturing method andan atomization device.

Related Art

Conventionally, an atomization device can be used to atomize a specificfiller to be inhaled. For example, an electronic cigarette is a type ofatomization device, which is an electronic device that simulates atraditional cigarette. An electronic cigarette comprises an atomizer, atube containing nicotine solution, and a battery, which atomizes thesmoke e-liquid in the atomizer to simulate the smoke produced in smokingby the electric current of charged lithium battery. The configuration ofconventional electronic cigarettes on the market shows that the batterysupplies power to an interface of the atomizer through soldered wires.The manufacturing of this type of electrical configuration iscomplicated, in which the soldering and assembling require a lot oflabor works.

SUMMARY

The embodiments of the present disclosure provide an atomization devicemanufacturing method and atomization device tended to solve the problemof complicated manufacturing process requiring high labor costs bymodular design of configuration for atomization devices.

On the first aspect, the present disclosure provides an atomizationdevice manufacturing method, comprising: Obtaining a hollow rod, twoends of which are respectively provided with an opening. Assembling anatomization component to the opening at one end of the rod. Assembling abattery component in the rod and electrically connecting the batterycomponent with the atomization component. Assembling a sensing componentto the opening at the other end of the rod and electrically connectingthe sensing component with the battery component.

In one embodiment, the manufacturing methods of the atomizationcomponent are: Assembling a liquid guiding member in a heating member.Disposing two conductive members at two ends of the heating memberrespectively for manufacturing an atomizer. Assembling the atomizer to abase. Assembling one end of a tube to the base, and the tube surroundsthe atomizer. Filling a filler into the tube. Sealing the other end ofthe tube with a suction nozzle member, and the suction nozzle member,and the base secure the atomizer.

In one embodiment, in the step of assembling the liquid guiding memberinto the heating member, the heating member is a spiral component. Theliquid guiding member is inserted into the spiral component.

In one embodiment, in the step of assembling the atomizer to the base,the base comprises a first tube body and a base body. The first tubebody is inserted in the base body. The heating member and the liquidguiding member are disposed at a nozzle of the first tube body away fromthe base body. Two ends of each of the two conductive membersrespectively are inserted in the base body.

In one embodiment, in the step of securing the atomizer with the suctionnozzle member and the base, the suction nozzle member comprises asuction nozzle and a second tube body. The second tube body is insertedin the suction nozzle. One end of the second tube body away from thesuction nozzle secures the heating member and the liquid guiding memberto the first tube body of the base.

In one embodiment, the steps of electrically connecting the batterycomponent to the atomization component comprise: Assembling a battery toan electrical conductive member, the battery is electrically connectedto the atomization component through the electrical conductive member.Securing a sleeve to an outer side of the battery and the electricalconductive member, the sleeve comprises a slit extending from one end tothe other end of the sleeve. Pressing the mutually connected battery andthe electrical conductive member to enter the sleeve through the slit.

In one embodiment, the manufacturing steps of the battery component are:Assembling the battery to the electrical conductive member, the batteryis electrically connected to the atomization component through theelectrical conductive member. Securing a sleeve to an outer side of thebattery and the electrical conductive member, wherein two opposite endsof the sleeve are respectively provided with a sleeve cover covering anopening at two opposite ends of the sleeve. Opening the sleeve cover andassembling the mutually connected battery and electrical conductivemember into the sleeve through the opening to allow the sleeve covers tocover two opposite ends of the electrical conductive member.

On the second aspect, the present disclosure provides an atomizationdevice, comprising a rod, an atomization component, a battery component,and a sensing component. The rod is a hollow cylinder, two ends of whichare respectively provided with an opening. The atomization component isdisposed at one end of the rod. The battery component is disposed in therod and is electrically connected with the atomization component. Thesensing component is disposed at the other end of the rod andelectrically connected with the battery component.

In one embodiment, the atomization component comprises an atomizer, abase, a tube, a filler, and a suction nozzle member. The atomizer isdisposed at the base. One end of the tube is disposed at the base. Theatomizer is disposed in the tube. The filler is filled in the tube. Thesuction nozzle member is disposed at the other end of the tube member.The suction nozzle member and the base secure the atomizer.

In one embodiment, the atomizer comprises a heating member, a liquidguiding member, and two conductive members. The liquid guiding member isassembled in the heating member. One ends of the two conductive membersare connected to two ends of the heating member. The base comprises afirst tube body and a base body. The first tube body is inserted in thebase body. The heating member and the liquid guiding member are disposedat a nozzle of the first tube body away from the base body.

In one embodiment, the suction nozzle member comprises a suction nozzleand a second tube body. The second tube body is inserted in the suctionnozzle. A nozzle of the second tube body away from the suction nozzle isconnected with the nozzle of the first tube body away from the basebody. The nozzle of the second tube body away from the suction nozzleand the nozzle of the first tube body away from the base body secure theheating member and the liquid guiding member between the first tube bodyand the second tube body.

In one embodiment, the nozzle of the first tube body away from the basebody comprises a first positioning component. The nozzle of the secondtube body away from the suction nozzle comprises a second positioningcomponent. The first positioning component of the first tube body isconnected to the second positioning component of the second tube bodyand forms a securing through hole. The heating member and the liquidguiding member are inserted in the securing through hole.

In one embodiment, each of the conductive members comprises a conductivestrip and a conductive pin. The conductive pin is disposed at one end ofthe conductive strip. The conductive pin is disposed at the base. Theconductive pin is exposed from a bottom surface of the base. The otherend of the conductive strip is connected with two ends of the heatingmember.

In one embodiment, the battery component comprises a battery and anelectrical conductive member. The electrical conductive member comprisesa conductive bracket, a first elastic sheet group, a first contactingbump, a second elastic sheet group, and a second contacting bump. Aninner side of a first end of the conductive bracket is provided with thefirst elastic sheet group. An outer side of the first end of theconductive bracket is provided with the first contacting bump. An innerside of a second end of the conductive bracket is provided with thesecond elastic sheet group. An outer side of the second end of theconductive bracket is provided with the second contacting bump. Two endsof the battery are electrically connected with the first elastic sheetgroup and the second elastic sheet group, respectively. The firstcontacting bump is electrically connected with the conductive pin of thetwo conductive members.

In one embodiment, one end of the battery, comprising a power terminaland a ground terminal, is electrically connected to the second elasticsheet group.

In one embodiment, one end of the battery, comprising a ground terminal,is electrically connected to the first elastic sheet group. The otherend of the battery, comprising a power terminal and another groundterminal, is electrically connected to the first elastic sheet group.

In one embodiment, the battery component further comprises a sleevecomprising an accommodating space. One side surface of the sleevecomprises a slit communicating with the accommodating space. The slitextends from one end of the sleeve to the other end of the sleeve. Thebattery and the electrical conductive member enter the accommodatingspace of the sleeve through the slit to be secured.

In one embodiment, the battery component further comprises a sleevecomprising a sleeve body, two connecting bodies, and two sleeve covers.The sleeve body comprises an accommodating space. Two opposite ends ofthe sleeve body respectively comprise an opening, the accommodatingspace communicates with the openings at two ends of the sleeve body. Thetwo connecting bodies are extending from one side edge of the openingsat two ends of the sleeve body. One side of the two sleeve covers isconnected to the two connecting bodies. The two sleeve covers cover theopenings at two ends of the sleeve body. Wherein the battery and theelectrical conductive member that enter the accommodating space throughthe opening are secured in the sleeve through the two sleeve covers.

In one embodiment, the electrical conductive member further comprises acontact elastic piece. The contact elastic piece extends from the secondelastic sheet group toward the outside of the second end of theconductive bracket and is connected to the sensing component.

In one embodiment, the sensing component comprises a suction nozzlemember, an air permeable member, and a sensing member. The suctionnozzle member comprises an accommodating groove. The bottom of theaccommodating groove is provided with an air suction hole. The airpermeable member is disposed in the accommodating groove. The sensingmember is disposed at the air permeable member. The sensing member isdisposed in the accommodating groove. One end of the sensing member iselectrically connected to the battery component.

In the embodiments of the present disclosure, by manufacturing anatomization device with specific methods, the atomization device can beproduced by a magazine-type combination of the atomization component,battery component, and the sensing component. Since the assemblingmethod is simple, the manufacturing process can be simplified. Amechanical configuration can further be applied to achieve a simpleautomatic assembly operation, which improves the manufacturing processefficiency of the atomization device and reduces labor costs.

It should be understood, however, that this summary may not contain allaspects and embodiments of the present disclosure, that this summary isnot meant to be limiting or restrictive in any manner, and that thedisclosure as disclosed herein will be understood by one of ordinaryskill in the art to encompass obvious improvements and modificationsthereto.

BRIEF DESCRIPTION OF THE DRAWINGS

The features of the exemplary embodiments believed to be novel and themembers and/or the steps characteristic of the exemplary embodiments areset forth with particularity in the appended claims. The Figures are forillustration purposes only and are not drawn to scale. The exemplaryembodiments, both as to organization and method of operation, may bestbe understood by reference to the detailed description which followstaken in conjunction with the accompanying drawings in which:

FIG. 1 is a flow chart of a manufacturing method of an atomizationdevice of the present disclosure;

FIG. 2 is an exploded view of the atomization device of the presentdisclosure;

FIG. 3 is a perspective view of the atomization device of the presentdisclosure;

FIG. 4 is another perspective view of the atomization device of thepresent disclosure;

FIG. 5 is a cross-sectional view along line A-A of FIG. 3 :

FIG. 6 is a flow chart of a manufacturing method of an atomizationcomponent of the present disclosure;

FIG. 7 is an exploded view of the atomization component of the presentdisclosure;

FIG. 8 is another exploded view of the atomization component of thepresent disclosure;

FIG. 9 is a schematic diagram of a filler filling in the atomizationcomponent of the present disclosure;

FIG. 10 is an exploded view of an electrical configuration of theatomization device of the present disclosure;

FIG. 11 is another exploded view of an electrical configuration of theatomization device of the present disclosure;

FIG. 12 is a schematic diagram of an electrical configuration of theatomization device of the first embodiment of the present disclosure;and

FIG. 13 is a schematic diagram of an electrical configuration of theatomization device of the second embodiment of the present disclosure.

DETAILED DESCRIPTION OF THE EMBODIMENTS

The present disclosure will now be described more fully hereinafter withreference to the accompanying drawings, in which exemplary embodimentsof the disclosure are shown. This present disclosure may, however, beembodied in many different forms and should not be construed as limitedto the embodiments set forth herein. Rather, these embodiments areprovided so that this present disclosure will be thorough and complete,and will fully convey the scope of the present disclosure to thoseskilled in the art.

Certain terms are used throughout the description and following claimsto refer to particular components. As one skilled in the art willappreciate, manufacturers may refer to a component by different names.This document does not intend to distinguish between components thatdiffer in name but function. In the following description and in theclaims, the terms “include/including” and “comprise/comprising” are usedin an open-ended fashion, and thus should be interpreted as “includingbut not limited to”. “Substantial/substantially” means, within anacceptable error range, the person skilled in the art may solve thetechnical problem in a certain error range to achieve the basictechnical effect.

The following description is of the best-contemplated mode of carryingout the disclosure. This description is made for the purpose ofillustration of the general principles of the disclosure and should notbe taken in a limiting sense. The scope of the disclosure is bestdetermined by reference to the appended claims.

Moreover, the terms “include”, “contain”, and any variation thereof areintended to cover a non-exclusive inclusion. Therefore, a process,method, object, or device that includes a series of members not onlyincludes these members, but also includes other members not specifiedexpressly, or may include inherent members of the process, method,object, or device. If no more limitations are made, a member limited by“include a/an . . . ” does not exclude other same members existing inthe process, the method, the article, or the device which includes themember.

FIG. 1 is a flow chart of a manufacturing method of an atomizationdevice of the present disclosure. FIG. 2 is an exploded view of theatomization device of the present disclosure. FIG. 3 is a perspectiveview of the atomization device of the present disclosure. FIG. 4 isanother perspective view of the atomization device of the presentdisclosure. FIG. 5 is a cross-sectional view along line A-A′ of FIG. 3 .As shown in the figures, the present disclosure provides an atomizationdevice manufacturing method, comprising: Step S100: obtaining a hollowrod 10, two ends of which are respectively provided with an opening 100;step S200: assembling an atomization component 11 to the opening 100 atone end of the rod 10; step S300: assembling a battery component 13 inthe rod 10 and electrically connecting the battery component 13 with theatomization component 11; step S400: assembling a sensing component 15to the opening 100 at the other end of the rod 10 and electricallyconnecting the sensing component 15 with the battery component 13.

In this embodiment, the atomization component 11, the battery component13, and the sensing component 15 are assembled in the rod 10 in orderaccording to the above methods with buckling, latches, or glue tosimplify complicated manufacturing processes. Mechanical typeconfigurations can also be used to perform simple automated assemblingoperations to improve the process efficiency of the atomization device 1for a deduction on labor costs. Thus, the production of the atomizationdevice 1 can be completed.

FIG. 6 is a flow chart of a manufacturing method of an atomizationcomponent of the present disclosure. FIG. 7 is an exploded view of theatomization component of the present disclosure. FIG. 8 is anotherexploded view of the atomization component of the present disclosure.FIG. 9 is a schematic diagram of a filler filling in the atomizationcomponent of the present disclosure. As shown in the figures, in thisembodiment, the manufacturing methods of the atomization component are:Step S11: assembling a liquid guiding member 111 in a heating member112. Wherein a heating wire is firstly drawn by a wire drawing machine,and then the heating wire is manufactured into a spiral heating member112 by winding. Moreover, the liquid guiding member 111 is an objectthat absorbs the liquid such as an liquid guiding cotton. A shaping jigclamps the liquid guiding cotton and is inserted into the spiral heatingmember 112, and then releases the liquid guiding cotton. The liquidguiding cotton expands and returns to the initial state to stuck in thespiral heating member 112.

The step 12 is to, disposing two conductive members 113 at two ends ofthe heating member 112 respectively for manufacturing an atomizer 110.Wherein one ends of the two conductive members 113 are secured to twoends of the heating member 112 so that the two conductive members 113are mutually connected through the heating member 112, and meanwhile torestrict the liquid guiding member 111 to be not prone to fall out ofthe heating member 112.

The step 13 is to, assembling the atomizer 110 to a base 114. Whereinthe base 114 comprises a first tube body 1141 and a base body 1143. Thefirst tube body 1141 is inserted in the base body 1143, which is asilicone plug. During assembling, the assembly machine places theheating member 112 and the liquid guiding member 111 on a nozzle of thefirst tube body 1141 away from the base body 1143, and have the two endsof the base body 1143 of the two conductive members 113 to be insertedin the base body 1143, respectively. In this way, two ends of the twoconductive members 113 are exposed from a bottom surface of the basebody 1143.

The step 14 is to, assembling one end of a tube 115 to the base 114, andthe tube 115 surrounds the atomizer 110. This indicates that The basebody 1143 of the base 114 is disposed at the nozzle of one end of thetube 115. A first sealing member 1181 is further provided, which coversthe base body 1143 of the base 114 and seals a gap between the base body114 and the tube 115. A surface of the first sealing member 1181comprises an opening 1180, from which two ends of the two conductivemembers 113 inserted in the base 1143 are exposed. In this way, leakageof a filler 116 described in the follows from the tube 115 can beavoided.

The step 15 is to, filling the filler 116 into the tube. Wherein thefiller 116 is a liquid absorbing cotton or liquid. In this embodiment,when the liquid absorbing cotton absorbs the filler, the liquidabsorbing cotton would be picked up by a mechanical arm to be filled inthe tube 115 to fill the circumference of the atomizer 110.

The step 15 is to, sealing the other end of the tube 115 with a suctionnozzle member 117, and the suction nozzle member 117 and the base 114secure the atomizer 110. Wherein the suction nozzle member 117 comprisesa suction nozzle 1171 and a second tube body 1173 inserted in thesuction nozzle 1171. One end of the second tube body 1173 away from thesuction nozzle 1171 secures the heating member 112 and the liquidguiding member 111 to the first tube body 1173 of the base 114. A secondsealing member 1182 is further provided, through which the first tubebody 1173 of the suction nozzle member 117 is penetrated to be disposedat the other end of the tube 115. In this way, the second sealing member1182 can be disposed between the suction nozzle 1171 and the tube 115 toseal the gap between the suction nozzle 1171 and the tube 115 to keepthe filler 116 from leaking from the tube 115.

FIG. 10 and FIG. 11 are exploded views of an electrical configuration ofthe atomization device of the present disclosure. As shown in thefigures, in this embodiment, the manufacturing steps of the batterycomponent 13 are: assembling the battery 131 to the electricalconductive member 133, the battery 131 is electrically connected throughthe electrical conductive member 133. Securing a sleeve 135 to an outerside of the battery 131 and the electrical conductive member 133, sothat the electrical connecting position between the battery 131 and theelectrical conductive member 133 can be fixed. When the batterycomponent 13 is electrically connected to the atomization component 11,the electrical conductive member 133 can be electrically connected tothe two ends of the two conductive members 113.

In some embodiments, the manufacturing steps of the battery component 13further comprising: assembling the battery 131 to the electricalconductive member 133, the battery 131 is electrically connected to theatomization component 11 through the electrical conductive member 133.Securing a sleeve 135 to an outer side of the battery 131 and theelectrical conductive member 133. Wherein the sleeve 135 comprises aslit 1351 extending from one end of the sleeve 135 to the other end.Finally, to pressingly assemble the mutually connected battery 131 andelectrical conductive member 133 into the sleeve 135 through the slit1351.

In another embodiment, the manufacturing steps of the battery component13 further comprising: assembling the battery 131 to the electricalconductive member 133, the battery 131 is electrically connected to theatomization component 11 through the electrical conductive member 133.Securing a sleeve 135 to an outer side of the battery 131 and theelectrical conductive member 133. Wherein two opposite ends of thesleeve 135 are respectively provided with a sleeve cover 1352 coveringan opening 1353 at two opposite ends of the sleeve 135. Opening thesleeve cover 1352 and assembling the mutually connected battery 131 andelectrical conductive member 133 into the sleeve 135 through the opening1353 to allow the sleeve covers 1352 to cover two opposite ends of theelectrical conductive member 133. Besides, the sleeve cover 1352 furthercomprises a through hole 13520 used for the exposure of the electricalconductive configuration of the electrical conductive member 133.

In the above embodiment, in the step of securing the sleeve 135 to theouter side of the battery 131 and the electrical conductive member 133,the co-configuration of the battery 131 and the electrical conductivemember 133 can be inserted into the slit 1351 of the sleeve 135 or canbe inserted into the openings 1353 at two opposite ends of the sleeve135, followed by covering the openings 1353 at two opposite ends of thesleeve 135 with a sleeve cover 1352. Different ways for componentsassembled to the sleeve 135 of this embodiment through the slit 1351 ortwo openings 1353 at two opposite ends can be optionally chosen from.

Besides, the steps for manufacturing a sensing component 15 comprises,obtaining a suction nozzle member 151 comprising an accommodating groove1511; disposing an air permeable member 153 at the bottom of theaccommodating groove 1511, wherein the air permeable member 153 is madeof foam. Placing a sensing member 155 on the air permeable member 153,and at the same time, the sensing member 155 is disposed in theaccommodating groove 1511. When the sensing component 15 is disposed atthe other end of the rod 10, it would be electrically connected to thebattery component 13.

Referring to FIG. 3 to FIG. 5 again, in this embodiment, an atomizationdevice 1 is provided, which comprises a rod 10, an atomization component11, a battery component 13, and a sensing component 15. The rod 10extends in a longitudinal direction and is a hollow cylinder whose twoopposite ends respectively comprise an opening 100. The atomizationcomponent 11 is disposed at the opening 100 of one end of the rod 10.The battery component 13 is disposed in the rod 10 and is electricallyconnected to the atomization component 11. The sensing component 15 isdisposed at the opening 100 of the other end of the rod 10 and iselectrically connected to the battery component 13. Wherein the rod 10is made of aluminum alloy, and the suction nozzle 1171 of the suctionnozzle member 117 is made of plastic.

Referring to FIG. 7 and FIG. 8 again, the atomization component 11comprises an atomizer 110, a base 114, a tube 115, a filler 116, and asuction nozzle member 117. The atomizer 110 is disposed at the base 114.The atomizer 110 comprises a liquid guiding member 111, a heating member112, and two conductive members 113 disposed in the heating member 112.One ends of the two conductive members 113 are connected to two ends ofthe heating member 112. Besides, the conductive member 113 comprises aconductive strip 1131 and a conductive pin 1133. One end of theconductive strip 1131 is connected to the two ends of the heating member112. The conductive pin 1133 is disposed at the other end of theconductive strip 1131. The conductive pin 1133 is disposed at the base114 and is exposed from a bottom surface of the base 114. One end of thetube 115 is disposed at the base 114. In the tube 115 the atomizer 110is disposed and the filler 116 is filled. The suction nozzle member 117is disposed at the other end of the tube 115. The suction nozzle member117 and the base 114 secure the atomizer 110.

The base 114 comprises a first tube body 1141 and a base body 1143, inwhich the first tube body 1141 is inserted. The heating member 112 andthe liquid guiding member 111 are disposed at the nozzle of the firsttube body 1141 away from the base body 1143. Besides, the suction nozzlemember 117 comprises a suction nozzle 1171 and a second tube body 1173inserted in the suction nozzle 1171 so that the nozzle of the secondtube body 1173 is exposed from a surface of the suction nozzle 1171. Thenozzle of the second tube body 1173 away from the suction nozzle 1171 iscommunicating with the nozzle of the first tube body 1141 away from thebase body 1143, allowing the heating member 112 and the liquid guidingmember 111 to be secured between the first tube body 1141 and the secondtube body 1173. Wherein the nozzle of the first tube body 1141 away fromthe base body 1143 comprises a first positioning component 1191, and thenozzle of the second tube body 1173 away from the suction nozzle 1171comprises a second positioning component 1192. The first positioningcomponent 1191 of the first tube body 1141 and the second positioningcomponent 1192 of the second tube body 1173 are connected to form asecuring through hole 1190 (see FIG. 5 ). The heating member 112 and theliquid guiding member 111 are inserted in the securing through hole1190. The liquid guiding member 111 seals the orifice of the securingthrough hole 1190, so that the filler 116 would not directly flow intothe first tube body 1141 and the second tube body 1173.

FIG. 12 is a schematic diagram of an electrical configuration of theatomization device of the first embodiment of the present disclosure.Referring to FIG. 10 to FIG. 12 , as shown in the figures, in thisembodiment, the battery component 13 comprises a battery 131 and anelectrical conductive member 133. The electrical conductive member 133comprises a conductive bracket 1331, a first elastic sheet group 1332, afirst contacting bump 1333, a second elastic sheet group 1334, and asecond contacting bump 1335. The oppositely disposed first end and thesecond end of the conductive bracket 1331 are respectively disposed attwo opposite ends of the battery 131. The conductive bracket 1331 isextending between the first end and second end thereof. An inner side ofthe first end of the conductive bracket 1331 is provided with a firstelastic sheet group 1332, and an outer side of the first end of theconductive bracket 1331 is provided with a first contacting bump 1333.An inner side of the second end of the conductive bracket 1331 isprovided with a second elastic sheet group 1334, and an outer side ofthe second end of the conductive bracket 1331 is provided with a secondcontacting bump 1335. Two ends of the battery 131 are electricallyconnected with the first elastic sheet group 1332 and the second elasticsheet group 1334. The first contacting bump 1333 is electricallyconnected with the conductive pin 1133 of the two conductive members113. Besides, the battery component 13 comprises a sleeve 135, which issecured to the outside of the electrical conductive member 133. Thesleeve 135 secures the electrical connecting position of the electricalconductive member 133 and the battery 131. Wherein the sleeve 135 ismade of silicone.

In some embodiment, the battery component 13 further comprises a sleeve135, which comprises an accommodating space 1350. A side surface of thesleeve 135 comprises a slit 1351 communicating with the accommodatingspace 1350. The slit 1351 extends from one end of the sleeve 135 to theother end of the sleeve 135. The battery 131 and the electricalconductive member 133 enter the accommodating space 1350 in the sleeve135 through the slit 1351 for securing.

In some other embodiments, the battery component 13 further comprises asleeve 135, which comprises a sleeve body 1354, two connecting bodies1355, and two sleeve covers 1352. The sleeve body 1354 comprises anaccommodating space 1350, and two opposite ends of the sleeve body 1354respectively comprise an opening 1353. The accommodating space 1350 iscommunicating with the openings 1353 at two ends. One side edges of theopenings 1353 at two ends of the sleeve body 1354 respectively extend tobe two connecting bodies 1355. One side of the two sleeve covers 1352 isconnected with the two connecting bodies 1355. The two sleeve covers1352 cover the openings 1353 at two ends of the sleeve body 1354. Inthis way, when the two sleeve covers 1352 can be opened relative to thesleeve body 1354, the sleeve covers 1352 could be away from the opening1353 of the sleeve body 1354. The openings 1353 at two ends of thesleeve body 1354 can be exposed to the outside. Wherein the battery 131and the electrical conductive member 133 enter the accommodating space1350 through the opening 1353. When the battery 131 and the electricalconductive member 133 are assembled into the sleeve 135, the cover 1352would be restored to cover a part of the first elastic sheet group 1332and the second elastic sheet group 1334. In this way, the battery 131and the electrical conductive member 133 in the sleeve 135 can besecured by the two sleeve covers 1352. Besides, the sleeve cover 1352comprises a through hole 13520 for the exposure of the first elasticsheet group 1332 and the second elastic sheet group 1334 of theelectrical conductive member 133, and thereby for the battery component13 to be electrically connected to the atomization component 11 and thesensing component 15.

In the above embodiment, the sleeve 135 is secured on the outer side ofthe battery 131 and the electrical conductive member 133. Wherein theco-configuration of the battery 131 and the electrical conductive member133 can be inserted into the slit 1351 of the sleeve 135, or insertedinto the openings 1353 at the two opposite ends of the sleeve 135,followed by covering the openings 1353 at two opposite ends of thesleeve 135 with the sleeve cover 1352. In this embodiment, the sleeve135 can comprise both the slit 1351 and the opening 1353 at two oppositeends of the sleeve 135 for users to select the way to assemble thebattery 131 and the electrical conductive member 133.

Referring to FIG. 12 again, in this embodiment, the battery 131 isconfigured as a single-sided two-terminal battery. The battery 131comprises a power terminal 1311 and a ground terminal 1312 electricallyconnected to the second elastic sheet group 1334. Wherein the secondelastic sheet group 1334 comprises two second elastic sheets 13341,which are electrically connected to the power terminal 1311 and theground terminal 1312, respectively. The first elastic sheet group 1332comprises two first elastic sheets 13321. The two first elastic sheets13321 are pressed to be secured to an end surface of one end of thebattery 131.

In this embodiment, the description of electric current supply circuitof the single-sided two-terminal battery 131 is as follows. Firstly,when the sensing member 155 of the sensing component 15 receives asensing signal, the sensing member 155 would drive the battery component13 to supply power. Then the power terminal 1311 of the battery 131outputs electric current to the second elastic sheet 13341, and theelectric current is transmitted from the second elastic sheet 13341 tothe conductive bracket 1331 then from the conductive bracket 1331 to thefirst contacting bump 1333, and from the first contacting bump 1333 tothe atomizer 110. Wherein when the output electric current from thefirst contacting bump 33 passes through the conductive pin 1133, theconductive strip 1131, the heating member 112, the other conductivestrip 1131, and the other conductive pin 1133, it would be transmittedback to the ground terminal 1312 starting from the other firstcontacting bump 1333 through the conductive bracket 1331 then the othersecond elastic sheet 13341, thereby completing a current loop.

FIG. 13 is a schematic diagram of an electrical configuration of theatomization device of the second embodiment of the present disclosure.As shown in the figure, in this embodiment, the battery 131 isconfigured as a double-sided three-terminal battery. The battery 131comprises a power terminal 1311 and two ground terminals 1312. One endof the battery 131 comprises the ground terminal 1312, which iselectrically connected with a first elastic sheet group 1332. Whereinthe first elastic sheet group 1332 comprises two first elastic sheets13321 and an electrical connecting end 13322. The electrical connectingend 13322 is disposed between the two first elastic sheets 13321. Aground terminal 1312 is electrically connected with the electricalconnecting end 13322. The two first elastic sheets 13321 are abuttingagainst and secured to an end surface of one end of the battery 131. Theother end of the battery 131 comprises a power terminal 1311 and anotherground terminal 1312. The power terminal 1311 and the other groundterminal 1312 are electrically connected to a second elastic sheet group1334. Wherein the second elastic sheet group 1334 comprises two secondelastic sheets 13341, which are electrically connected to the powerterminal 1311 and the other ground terminal 1312, respectively. In thisembodiment, the linear connection distance of the circuit can beshortened by the ground terminal 1312 of one end of the battery 131.That is, by shortening the path distance of electric current, electricresistance could be reduced to cut off the power loss and the waste heatgeneration.

In this embodiment, the difference between the power supply current loopof the double-sided three-terminal battery 131 and that of thesingle-sided two-terminal battery 131 is that the electric current isdirectly conducted to the ground terminal 1312 through the conductivebracket 1331 and the electrical connecting end 13322 when the electriccurrent is transmitted through the atomizer 110 via the first contactingbump 1333 and returns to the other first contacting bump 1333. In thisway, the circuit loop path distance can be significantly shortened forthe completion of a complete current loop.

Besides, the electrical conductive member 133 further comprises acontact elastic piece 1336, which extends from the second elastic sheet13341 of the second elastic sheet group 1334 to the outer side of thesecond end of the conductive bracket 1331 to be electrically connectedto the sensing member 155 of the sensing component 15. Wherein thecontact elastic piece 1336 is electrically connected to a control unitin the sensing member 155 of the sensing component 15 for real timedetection of the electric current power intensity and maintaining thedynamic adjustment.

Referring to FIG. 10 and FIG. 11 again, the sensing component 15comprises a suction nozzle member 151, an air permeable member 153, anda sensing member 155. The suction nozzle member 151 comprises anaccommodating groove 1511. The bottom of the accommodating groove 1511is provided with a suction hole 1510, that is, the suction hole 1510penetrates the suction nozzle member 151. The air permeable member 153is disposed in the accommodating groove 1511. The sensing member 155 isdisposed on the air permeable member 153 and is disposed in theaccommodating groove 1511. One end of the sensing member 155 iselectrically connected to the battery component 13. Wherein the sensingmember 155 comprises an airstream sensing unit and a control unit. Whenthe control unit receives a sensing signal from the airstream sensingunit, the control unit would send a control signal to control the powersupply intensity or the cutoff of the power supply of the batterycomponent 13.

Referring to FIG. 5 again, in this embodiment, when the atomizationdevice 1 is been using, the second tube body 1173 of the suction nozzle1171 would attract the air in the rod 10, so that the suction hole 1510of the suction nozzle member 151 can guide the air of the outeratmosphere into the rod 10. When the airstream sensing unit of thesensing member 155 of the suction nozzle member 151 senses the ingressof air, the control unit of the sensing member 155 would control thebattery 131 to supply power. The battery 131 supplies power to the twoconductive members 113 of the atomizer 110 through the electricalconductive member 133. When the conductive member 113 conducts electriccurrent to the heating member 112, the heating member 112 would generatehigh heat to heat up the filler 116 adsorbed by the liquid guidingmember 111 with evaporating the filler 116 into a smoke. When the filler116 in smoke is inhaled through the second tube body 1173 of the suctionnozzle member 117, e-smoking can be completed with the atomizationdevice 1.

Besides, when the filler 116 in the atomization component 11 is fullyconsumed, it can be refilled into the atomization component 11, or theatomization component 11 can be replaced with a new one for furthersmoking with the atomization device 1.

In summary, embodiments of the present disclosure provide an atomizationdevice manufacturing method and an atomization device. By manufacturingan atomization device with specific methods, the atomization device canbe produced by a magazine-type combination of the atomization component,battery component, and the sensing component. Since the assemblingmethod is simple, the manufacturing process can be simplified. Amechanical configuration can further be applied to achieve a simpleautomatic assembly operation, which improves the manufacturing processefficiency of the atomization device and reduces labor costs.

It is to be understood that the term “comprises”, “comprising”, or anyother variants thereof, is intended to encompass a non-exclusiveinclusion, such that a process, method, article, or device of a seriesof members not only comprise those members but further comprises othermembers that are not explicitly listed, or members that are inherent tosuch a process, method, article, or device. A member defined by thephrase “comprising a . . . ” does not exclude the presence of the samemember in the process, method, article, or device that comprises themember.

Although the present disclosure has been explained in relation to itspreferred embodiment, it does not intend to limit the presentdisclosure. It will be apparent to those skilled in the art havingregard to this present disclosure that other modifications of theexemplary embodiments beyond those embodiments specifically describedhere may be made without departing from the spirit of the disclosure.Accordingly, such modifications are considered within the scope of thedisclosure as limited solely by the appended claims.

What is claimed is:
 1. A method for manufacturing an atomization device,comprising: obtaining a hollow rod, two ends of which being respectivelyprovided with openings; assembling an atomization component to theopening at one of the ends of the rod; assembling a battery component inthe rod and electrically connecting the battery component with theatomization component; and assembling a sensing component to the openingat the other one of the ends of the rod and electrically connecting thesensing component with the battery component.
 2. The method formanufacturing an atomization device according to claim 1, wherein themanufacturing methods of the atomization component comprises: assemblinga liquid guiding member in a heating member; disposing two conductivemembers at two ends of the heating member respectively for manufacturingan atomizer; assembling the atomizer to a base; assembling one end of atube to the base, the tube surrounding the atomizer; filling a filler inthe tube; sealing an another end of the tube with a suction nozzlemember, the suction nozzle member and the base securing the atomizer. 3.The method for manufacturing an atomization device according to claim 2,wherein in the step of assembling the liquid guiding member into theheating member, the heating member is a spiral component; the liquidguiding member is inserted into the spiral component.
 4. The method formanufacturing an atomization device according to claim 2, wherein in thestep of assembling the atomizer to the base, the base comprises a firsttube body and a base body; the first tube body is inserted in the basebody; the heating member and the liquid guiding member are disposed at anozzle of the first tube body away from the base body; two ends of eachof the two conductive members respectively are inserted in the basebody.
 5. The method for manufacturing an atomization device according toclaim 4, wherein in the step of securing the atomizer with the suctionnozzle member and the base, the suction nozzle member comprises asuction nozzle and a second tube body; the second tube body is insertedin the suction nozzle; one end of the second tube body away from thesuction nozzle secures the heating member and the liquid guiding memberto the first tube body of the base.
 6. The method for manufacturing anatomization device according to claim 1, wherein the manufacturing stepsof the battery component comprises: assembling a battery to anelectrical conductive member, the battery being electrically connectedto the atomization component through the electrical conductive member;securing a sleeve to an outer side of the battery and the electricalconductive member, the sleeve comprising a slit extending from one endto an another end of the sleeve; and pressing the assembly of thebattery and the electrical conductive member to enter the sleeve throughthe slit.
 7. The method for manufacturing an atomization deviceaccording to claim 1, wherein the manufacturing steps of the batterycomponent comprises: assembling the battery to the electrical conductivemember, the battery being electrically connected to the atomizationcomponent through the electrical conductive member; and securing asleeve to an outer side of the battery and the electrical conductivemember, wherein two opposite ends of the sleeve are respectivelyprovided with sleeve covers covering openings at two opposite ends ofthe sleeve; and opening the sleeve cover and assembling the assembly ofthe battery and the electrical conductive member into the sleeve throughthe opening to allow the sleeve covers to cover two opposite ends of theelectrical conductive member.
 8. An atomization device, comprising: arod being a hollow cylinder, two ends of which being respectivelyprovided with openings; an atomization component disposed at one of theends of the rod; a battery component disposed in the rod andelectrically connected with the atomization component; and a sensingcomponent disposed at the other one of the ends of the rod andelectrically connected with the battery component.
 9. The atomizationdevice according to claim 8, wherein the atomization component comprisesan atomizer, a base, a tube, a filler, and a suction nozzle member; theatomizer is disposed at the base: one end of the tube is disposed at thebase; the atomizer is disposed in the tube; the filler is filled in thetube: the suction nozzle member is disposed at an another end of thetube member; the suction nozzle member and the base secure the atomizer.10. The atomization device according to claim 9, wherein the atomizercomprises a heating member, a liquid guiding member, and two conductivemembers; the liquid guiding member is assembled in the heating member;one ends of the two conductive members are connected to two ends of theheating member; the base comprises a first tube body and a base body;the first tube body is inserted in the base body; the heating member andthe liquid guiding member are disposed at a nozzle of the first tubebody away from the base body.
 11. The atomization device according toclaim 10, wherein the suction nozzle member comprises a suction nozzleand a second tube body; the second tube body is inserted in the suctionnozzle; a nozzle of the second tube body away from the suction nozzle isconnected with the nozzle of the first tube body away from the basebody: the nozzle of the second tube body away from the suction nozzleand the nozzle of the first tube body away from the base body secure theheating member and the liquid guiding member between the first tube bodyand the second tube body.
 12. The atomization device according to claim11, wherein the nozzle of the first tube body away from the base bodycomprises a first positioning component; the nozzle of the second tubebody away from the suction nozzle comprises a second positioningcomponent; the first positioning component of the first tube body isconnected to the second positioning component of the second tube bodyand forms a securing through hole; the heating member and the liquidguiding member are inserted in the securing through hole.
 13. Theatomization device according to claim 10, wherein each of the conductivemembers comprises a conductive strip and a conductive pin; theconductive pin is disposed at one end of the conductive strip; theconductive pin is disposed at the base; the conductive pin is exposedfrom a bottom surface of the base: an another end of the conductivestrip is connected with two ends of the heating member.
 14. Theatomization device according to claim 13, wherein the battery componentcomprises a battery and an electrical conductive member; the electricalconductive member comprises a conductive bracket, a first elastic sheetgroup, a first contacting bump, a second elastic sheet group, and asecond contacting bump: an inner side of a first end of the conductivebracket is provided with the first elastic sheet group; an outer side ofthe first end of the conductive bracket is provided with the firstcontacting bump; an inner side of a second end of the conductive bracketis provided with the second elastic sheet group; an outer side of thesecond end of the conductive bracket is provided with the secondcontacting bump; two ends of the battery are electrically connected withthe first elastic sheet group and the second elastic sheet group,respectively; the first contacting bump is electrically connected withthe conductive pin of the two conductive members.
 15. The atomizationdevice according to claim 14, wherein one end of the battery comprises apower terminal and a ground terminal and is electrically connected tothe second elastic sheet group.
 16. The atomization device according toclaim 14, wherein one end of the battery comprises a ground terminal andis electrically connected to the first elastic sheet group; an anotherend of the battery comprises a power terminal and an another groundterminal and is electrically connected to the second elastic sheetgroup.
 17. The atomization device according to claim 14, wherein thebattery component further comprises a sleeve comprising an accommodatingspace; one side surface of the sleeve comprises a slit communicatingwith the accommodating space; the slit extends from one end of thesleeve to an another end of the sleeve; the battery and the electricalconductive member enter the accommodating space of the sleeve throughthe slit to be secured.
 18. The atomization device according to claim14, wherein the battery component further comprises a sleeve comprisinga sleeve body, two connecting bodies, and two sleeve covers; the sleevebody comprises an accommodating space; two opposite ends of the sleevebody respectively comprise an opening; the accommodating spacecommunicates with the openings at two ends of the sleeve body; the twoconnecting bodies extend from side edges of the openings at two ends ofthe sleeve body; sides of the two sleeve covers are connected to the twoconnecting bodies; the two sleeve covers cover the openings at two endsof the sleeve body: wherein the battery and the electrical conductivemember that enter the accommodating space through the opening aresecured in the sleeve through the two sleeve covers.
 19. The atomizationdevice according to claim 14, wherein the electrical conductive memberfurther comprises a contact elastic piece: the contact elastic pieceextends from the second elastic sheet group toward the outside of thesecond end of the conductive bracket and is connected to the sensingcomponent.
 20. The atomization device according to claim 8, wherein thesensing component comprises a suction nozzle member, an air permeablemember, and a sensing member: the suction nozzle member comprises anaccommodating groove: the bottom of the accommodating groove is providedwith an air suction hole: the air permeable member is disposed in theaccommodating groove; the sensing member is disposed on the airpermeable member; the sensing member is disposed in the accommodatinggroove; one end of the sensing member is electrically connected to thebattery component.